Thread Closed

electric field inside a uniformly charged insulator

 
Share Thread Thread Tools
Mar22-08, 05:06 PM   #1
 

electric field inside a uniformly charged insulator

1. The problem statement, all variables and given/known data
ok here's the problem: find the magnitude of the electric field inside uniformly charged insulating sphere of raduis R.


2. Relevant equations
application of gauss's law..but...


3. The attempt at a solution
should i use
[tex]\phi[/tex] = q[tex]_{encl}\epsilon_0[/tex]
or
[tex]\phi[/tex] = q[tex]_{encl}[/tex]/[tex]\kappa[/tex][tex]\epsilon[/tex]
???
PhysOrg.com
PhysOrg		 science news on PhysOrg.com

>> Galaxies fed by funnels of fuel
>> The better to see you with: Scientists build record-setting metamaterial flat lens
>> Google eyes emerging markets networks
Mar22-08, 05:35 PM   #2
 
It becomes slightly different inside a sphere. Electric fields are vectors, and a point inside a sphere is being affected by an electric field in every direction. Heres what you need to know: Any point inside a spherical shell of any thickness receives a net electric field of 0N/C. Same concept applies to electric force and gravity.
Here is a site to help you out on this:
http://hyperphysics.phy-astr.gsu.edu...ic/elesph.html
Using that, if a point is a radial distance a from the center of the sphere (while inside the sphere), the net electric field at a point inside a sphere would be due to only the the charge within the radial distance (the charges outside the radial distance contributes to the 0N/C).
Mar22-08, 05:47 PM   #3
 
So, are you in space or a material? Would you want to use the electric constant for free space or not?
Mar23-08, 01:26 AM   #4
 

electric field inside a uniformly charged insulator

Quote by Mindscrape View Post
So, are you in space or a material? Would you want to use the electric constant for free space or not?
that is what I'm confuswed about...if the insulating sphere is made of a material other than air, which one should I use on the righthand side of the flux equation? [tex]\epsilon_{0} [/tex] or [tex]\epsilon[/tex]. that is should I take the permittivity constant ([tex]\kappa[/tex]) into account or not?
Mar23-08, 02:34 AM   #5
 
Recognitions:
Homework Helper Homework Help
Since you are solving for the electric field strength E, you would just use [tex]\epsilon_{o}[/tex]. If you were asked for the electric flux density D, you would need to be concerned with the electric permittivity of the material. (The hint is that you aren't given a value for [tex]\kappa[/tex] in the problem...)
Mar23-08, 02:48 AM   #6
 
Quote by 0blivi0n View Post
3. The attempt at a solution
should i use
[tex]\phi[/tex] = q[tex]_{encl}\epsilon_0[/tex]
or
[tex]\phi[/tex] = q[tex]_{encl}[/tex]/[tex]\kappa[/tex][tex]\epsilon[/tex]
???
Out of curiosity, what volume are you using for the enclosed charge?
Mar23-08, 03:31 AM   #7
 
a sphere
Mar23-08, 03:33 AM   #8
 
thanks dynamicsolo. I'm starting to see how things are now
Mar23-08, 12:34 PM   #9
 
Quote by 0blivi0n View Post
a sphere
thats a shape, not a volume
Sep14-09, 09:52 PM   #10
 
If a charge were distributed uniformly on the surface of the balloon(insulator). A point particle with charge q inside is greatest when it is anywhere inside the sphere because the force is zero?

or when it is near the inside surface of the balloon?
Thread Closed
Thread Tools


Similar Threads for: electric field inside a uniformly charged insulator
Thread Forum Replies
Electric field in an off-center hole of an uniformly charged sphere Advanced Physics Homework 12
Electric field calculation using Coulomb's law for uniformly charged conducting spher Introductory Physics Homework 8
Electric field inside a charged dielectric Introductory Physics Homework 2
Electric Charge on a uniformly charged disk Introductory Physics Homework 1
Electric field intensity for a uniformly charged wire. Introductory Physics Homework 2